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Jump to search filtersMicron-scale Reactive Atomistic Simulations of Void Collapse and Hotspot Growth in Pentaerythritol Tetranitrate
The 15th International Detonation Symposium
Abstract not provided.
Direct Simulation Monte Carlo: The Quest for Speed
Abstract not provided.
Nanoscale Void-Enhanced Initiation in Hexanitrostilbene
15th International Detonation Symposium
Abstract not provided.
Realizing Exascale Performance for Uncertainty Quantification
Abstract not provided.
Improving Performance of Sampling-Based Uncertainty Quantification on Advanced Computing Architectures Through Embedded Ensemble Propagation
Abstract not provided.
Back to the Basics: Artificial Viscosity and other topics in Predictive Engineering Simulations
Abstract not provided.
Micron-scale Reactive Atomistic Simulation of Void Collapse and Hotspot Growth in pentaerythritol tetranitrate (PETN)
Abstract not provided.
Controlling Uncertainty in PDE-Constrained Optimization
Abstract not provided.
Energy-Stable Galerkin Reduced Order Models for Nonlinear Compressible Flow
Abstract not provided.
Nanoscale Void-Enhanced Initiation in Hexanitrostilbene: Reactive Molecular Dynamics Simulations
Abstract not provided.
Enabling Hydrocode Meta-Analysis: The ALEGRA-DAKOTA Experience
Abstract not provided.
Effective Representation and Propagation of Uncertainty Through Tabular Multiphase Equation-of-State Models
Abstract not provided.
Building on the Foundation: Optimization Under Uncertainty and Related Topics
Quantum Transport Simulation and Optimization of Below-6-nm Si FinFETs with HfSiON/SiO2 Gate Dielectrics
Abstract not provided.
Large Scale Optimization for Non-Invasive Testing With Discontinuous Galerkin Methods
Abstract not provided.
CASL Milestone L2:PHI.P9.01 Challenge Problem Coupling
Abstract not provided.
Application of Second-Order Optimization Algorithms to Topology Optimization Problems
Abstract not provided.
Detecting Anomalies in Very Large Graphs
Abstract not provided.
PULP: Scalable Multi-Objective Multi-Constraint Partitioning for Small-World Networks
Abstract not provided.
VTK-m: A Foundation (SDAV Meeting)
Abstract not provided.
Proposing an Abstracted Interface and Protocol for Computer Systems
While it made sense for historical reasons to develop different interfaces and protocols for memory channels, CPU to CPU interactions, and I/O devices, ongoing developments in the computer industry are leading to more converged requirements and physical implementations for these interconnects. As it becomes increasingly common for advanced components to contain a variety of computational devices as well as memory, the distinction between processors, memory, accelerators, and I/O devices become s increasingly blurred. As a result, the interface requirements among such components are converging. There is also a wide range of new disruptive technologies that will impact the computer market in the coming years , including 3D integration and emerging NVRAM memory. Optimal exploitation of these technologies cannot be done with the existing memory, storage, and I/O interface standards. The computer industry has historically made major advances when industry players have been able to add innovation behind a standard interface. The standard interface provides a large market for their products and enables relatively quick and widespread adoption. To enable a new wave of innovation in the form of advanced memory products and accelerators, we need a new standard interface explicitly designed to provide both the performance and flexibility to support new system integration solutions.
Towards extreme-scale simulations for low-Mach fluids with second-generation Trilinos
Parallel Processing Letters
Abstract not provided.
On the Development of an Implicit Stabilized FE Solver for Resistive MHD with Integrated Adjoint Error-Estimation
Abstract not provided.
A Scalable Implicit FE Solver for Resistive MHD with Integrated Adjoint Error-estimation and Sensitivity Analysis
Abstract not provided.
Towards Scalable Fully-Coupled Algebraic Multigrid Preconditioners for Magnetohydrodynamic Simulations
Abstract not provided.
Next-generation Trilinos for very large scale low Mach CFD simulations: a case study
Abstract not provided.
A Comparison of Algebraic Multigrid Preconditioning Approaches for Sampling-Based Uncertainty Propagation on Advanced Computing Architectures
Abstract not provided.
Improved Poisson-disk Sampling for Meshing Applications
Abstract not provided.
Proposing an Abstracted Interface and Protocol for Computer Systems
While it made sense for historical reasons to develop different interfaces and protocols for memory channels, CPU to CPU interactions, and I/O devices, ongoing developments in the computer industry are leading to more converged requirements and physical implementations for these interconnects. As it becomes increasingly common for advanced components to contain a variety of computational devices as well as memory, the distinction between processors, memory, accelerators, and I/O devices becomes increasingly blurred. As a result, the interface requirements among such components are converging. There is also a wide range of new disruptive technologies that will impact the computer market in the coming years, including 3D integration and emerging NVRAM memory. Optimal exploitation of these technologies cannot be done with the existing memory, storage, and I/O interface standards. The computer industry has historically made major advances when industry players have been able to add innovation behind a standard interface. The standard interface provides a large market for their products and enables relatively quick and widespread adoption. To enable a new wave of innovation in the form of advanced memory products and accelerators, we need a new standard interface explicitly designed to provide both the performance and flexibility to support new system integration solutions
Peridynamics as a multiscale method
Abstract not provided.
Quantum computing by color-code lattice surgery
http://www.arXiv.org and Physical Review A
Abstract not provided.
Quantum LDPC Workshop: Quantum computing by color-code lattice surgery
Abstract not provided.
Kokkos Path Forward: Spaces Policies Defaults C++11 and Tasks
Abstract not provided.
Black Carbon Methane and Carbon Dioxide: Measurement Modeling and Source Attribution
Abstract not provided.
Si/SiGe spin, charge, and hybrid qubits
Abstract not provided.
Gap protection and dynamical decoupling for reliable multi-qubit gates
Abstract not provided.
FASTMath Partitioning and Task Placement
Abstract not provided.
Assessing the standard Molybdenum projector augmented wave VASP potentials
Density Functional Theory (DFT) based Equation of State (EOS) construction is a prominent part of Sandia’s capabilities to support engineering sciences. This capability is based on augmenting experimental data with information gained from computational investigations, especially in those parts of the phase space where experimental data is hard, dangerous, or expensive to obtain. A key part of the success of the Sandia approach is the fundamental science work supporting the computational capability. Not only does this work enhance the capability to perform highly accurate calculations but it also provides crucial insight into the limitations of the computational tools, providing high confidence in the results even where results cannot be, or have not yet been, validated by experimental data. This report concerns the key ingredient of projector augmented-wave (PAW) potentials for use in pseudo-potential computational codes. Using the tools discussed in SAND2012-7389 we assess the standard Vienna Ab-initio Simulation Package (VASP) PAWs for Molybdenum.
Zoltan Three-Slide Overview for ATPESC 2014
Abstract not provided.
Sandia Software Enabling Extreme-Scale Uncertainty Quantification
Abstract not provided.
Draft of M2 Report on Integration of the Hybrid Hydride Model into INL's MBM Framework for Review
This report documents the development, demonstration and validation of a mesoscale, microstructural evolution model for simulation of zirconium hydride {delta}-ZrH{sub 1.5} precipitation in the cladding of used nuclear fuels that may occur during long-term dry storage. While the Zr-based claddings are manufactured free of any hydrogen, they absorb hydrogen during service, in the reactor by a process commonly termed ‘hydrogen pick-up’. The precipitation and growth of zirconium hydrides during dry storage is one of the most likely fuel rod integrity failure mechanisms either by embrittlement or delayed hydride cracking of the cladding. While the phenomenon is well documented and identified as a potential key failure mechanism during long-term dry storage (NUREG/CR-7116), the ability to actually predict the formation of hydrides is poor. The model being documented in this work is a computational capability for the prediction of hydride formation in different claddings of used nuclear fuels. This work supports the Used Fuel Disposition Research and Development Campaign in assessing the structural engineering performance of the cladding during and after long-term dry storage. This document demonstrates a basic hydride precipitation model that is built on a recently developed hybrid Potts-phase field model that combines elements of Potts-Monte Carlo and the phase-field models. The model capabilities are demonstrated along with the incorporation of the starting microstructure, thermodynamics of the Zr-H system and the hydride formation mechanism.
PISCEES Development of the FELIX Dynamical Cores for Land Ice Modeling
Abstract not provided.
An Overview of Select UQ Algorithms and their Utility in Applications
Abstract not provided.
Optimization-Based Transport of Passive Tracers
Abstract not provided.
Formal Metrics for Large-Scale Parallel Performance
Abstract not provided.
Optimization-based models and algorithms for feature-preserving %0Cfinite element transport
Abstract not provided.
The Qthreads Lightweight Multithreading Library
Abstract not provided.
Development High-Performance Computing Capabilities for Non-Invasive Testing of Nuclear Weapons Systems - CCC7
Abstract not provided.
Unifying the mechanics of continua cracks and particles
Abstract not provided.